#UofTGrad16: Meet 16 of the newest global Engineering leaders from U of T

For U of T Engineering students, the short walk across the stage at Convocation Hall marks both the end of one journey and the beginning of another.

Among the 18,000 members of the Class of 2016 are these talented Engineering graduates who will receive their degrees at Spring Convocation on June 8 and 9.

Selected by their home departments, each of these remarkable future Skule™ alumni has made their own unique contribution to enhancing the vibrant community in U of T Engineering—watch their next steps.

Caitlin Maikawa (BASc Chemical Engineering)Locker room to lab bench

“I want my future research to make an impact on repairing damage and treating disease in the human body,” says Maikawa. Last month she published her first scientific paper in the journal Environmental Health Perspectives, based on work with chemical engineering professor Greg Evans and Professor Krystal Godri Pollitt (University of Massachusetts Amherst) on the exposure of asthmatic children to oxidant air pollutants. Her fourth-year thesis project, supervised by Professor Alison McGuigan, of the Department of Chemical Engineering & Applied Chemistry and IBBME, focused on new ways to visualize connective tissue cells in cancer tumours. In the fall, Maikawa will start her PhD in bioengineering at Stanford University.

Maikawa played defence on the varsity women's hockey team for the last five years and was thrice named an Academic All Canadian by Canadian Interuniversity Sport. She was one of two U of T engineering students to attend the Catalyst Canada Honours Conference, sponsored by the BMO Millennial Leaders Advisory Council, which allowed her to meet and network with champions of women’s advancement from across Canada.

Shout out: “I want to thank Professor Evans for his support and giving me the opportunity to work in the SOCAAR lab on projects aligned with my interests, Professor Godri Pollitt of the University of Massachusetts, Amherst for her mentorship over the last four years, Professor Alison McGuigan for her guidance and the Varsity Blues Women's hockey team for being my family for the last five years.

Matthew Lee (BASc Engineering Science)Up in the Arctic air

Lee says his favourite part of Engineering Science was getting to meet “a lot of really brilliant people,” and making lasting friendships. Lee received this year’s Engineers for the World (E4TW) Award from Engineering Science for his contributions to the wider community. These include his work as an instructor and officer with the Air Cadet program, where he taught aviation theory, marksmanship, survival skills and leadership.

Lee was named an Academic All-Canadian while on the varsity curling team during his second year and he directed the U of T Curling Club, helping novices get into the sport. Following graduation, Lee will take up a position as an engineer in training (EIT) at First Air, an airline that operates in Canada's high Arctic. His portfolio includes troubleshooting operational issues, liaising with the government's regulatory agencies and occasional trips to Nunavut and the Northwest Territories.

Shout out: “I would like to thank all the people in EngSci, from fellow classmates to professors and support staff, as they have made this one incredible experience.”

Clark worked with Professor Philippe Lavoie at the University of Toronto Institute for Aerospace Studies to measure and model how air flows around blunt trailing edge airfoils, structures found in both airplane wings and wind turbine blades. Her research could help engineers design more efficient airfoils that reduce fuel consumption and lower emissions from airplanes, or that increase structural integrity and dampen vibrations that cause noise pollution in wind turbines.

For her work, Clark twice received the Zonta International Amelia Earhart Fellowship, a global competition recognizing women pursuing a doctorate in aerospace-related disciplines. She has already started her new position at the National Research Council in Ottawa, performing experimental research in aerodynamics and aeroacoustics.

Shout out: “I had the privilege of working alongside very talented colleagues in the Flow Control and Experimental Turbulence Laboratory. We combined our varied backgrounds and new ideas effectively on many occasions, and I am grateful for their collaboration and friendship. I would also like to thank Prof. Lavoie for his dedication to the project and his expression of confidence in my abilities.”

Emily Miao (BASc Computer Engineering)Software superstar

Miao aims to use her computer engineering degree to “be a part of the technological developments that efficiently solve real-world problems and make our everyday lives easier.” For example, she did summer research with Professor Jason Anderson (ECE) on LegUp, a tool that lets programmers harness the power of hardware to speed up certain processes in their code. In the ECE capstone design course, Miao and her team created a rotational 3D scanner to reduce the cost and increase the accuracy of 3D printing projects, earning them the Gordon R. Slemon Design Award.

Miao completed her PEY internship as a Digital Design and Verification Engineering Intern at Intel Canada. Throughout her undergraduate studies, Miao volunteered as an ECE Ambassador, interacting with potential students at university fairs and open houses. She was also on the executive of the Sustainable Engineers Association and the U of T chapter of the Institute of Electrical and Electronics Engineers (IEEE). “Working, studying, and interacting with so many intelligent and motivated individuals inspires and motivates me to work harder to achieve my full potential.

Shout out: “I would like to thank Professor Anderson for taking a chance on me and continuously guiding me through my summer research term, Professor Phang for your faith in me and your continuous support and guidance with IEEE UofT. And to all my friends at UofT, thank you for your support, I couldn't have done it without you.

Melissa Greef (BASc Engineering Science)High flier, strategic thinker

Greef came to U of T Engineering from South Africa to find an enriching experience. “There are so many great academic options at U of T,” she says. “I completed minors in engineering business and robotics, challenging myself to learn as much as possible.”

Greef says one of her personal highlights was working for Bombardier Aerospace as part of a summer internship through the University of Toronto Institute for Multidisciplinary Design and Innovation (UT-IMDI). Outside of class, she represented the University of Toronto at two Pan-American Chess Championships, winning the “best international team” trophy both times.

In the fall, Greef will begin her MASc with Professor Angela Schoellig at the University of Toronto Institute for Aerospace Studies, working on robotics and control. “There is significant potential to create opportunities and develop elegant solutions with flying robots,” she says. “This is very exciting for me.”

Shout out: “I’d like to thank the various professors that have taught me for their insight and guidance. I’d also like to thank my fellow engineering science students for their comradery and friendship.”

Diaz Lozano Patiño grew up in Mexico City, in a family where his father, uncle, great-uncle and great-grandfather were all engineers. He sums up his U of T experience in one word: inspiring. “It is incredible to see young, motivated people working hard to solve some of the most complex problems of our world,” he says. “We have people working on cutting edge treatment for cancer, innovative transportation systems, renewable energy sources and much more.”

During his undergrad, he joined the Engineering Society as a representative from Civil Engineering, and pioneered the use of focus groups to foster effective communication between students and the Faculty. He served as president of the Engineering Society for 2015-2016. He was also a founding member of the first chapter of the Canadian Electrical Contractors Association. Following graduation, Diaz Lozano Patiño will begin his MASc with civil engineering professor Jeffrey Siegel, studying building science and indoor air quality. He also plans to to work with other engineers to further develop leadership in the profession, so that “engineers can be more active in shaping the future of our world.”

Shout out: “I'd like to thank all my professors for having been inspiring role models, who have challenged me to think critically and made me reflect deeply on the importance of t the Engineering profession.”

Ante Lausic (PhD Materials Science & Engineering)Sharing a love of structures, solar materials and sustainability“Graduate students sometimes forget how revolutionary and amazing the work we do is,” says Lausic. “Taking a step back makes you realize how lucky we really are." Lausic’s research, co-supervised by Professor Glenn Hibbard in the Department of Materials Science & Engineering and Professor Craig Steeves at the University of Toronto Institute for Aerospace Studies, combined 3D printing with the high strength of nanocrystalline materials. The goal was to create new fabrication processes for ultra-lightweight materials that will power the next generation of aerospace structures and enable greener transportation.

Lausic is skilled at communicating his research and was featured on a mini-series for Global TV called “Small Wonders” which explored the potential of nanotechnology. He also instructed courses on electron microscopy, 3D printing, and engineering math for DEEP Summer Academy, engaging high school students from Canada and around the world.

After convocation, Lausic will begin a MITACS post-doctoral fellowship with Ubiquity Solar, Inc., a company that produces advanced silicon materials for the solar energy industry. He eventually plans to move into a research and development position. “I want to maximize my design experience and materials background to advance the Canadian aerospace and transportation industries,” he says.

Shout out: “I couldn't have accomplished any of this without my supervisors who from day one in my undergraduate thesis were always available, supportive, and wonderful role models. I also owe all I have done to my family, the Hybrid Materials Design Group, the MSE staff, and UofT for making this degree possible.”

Monis Rodriguez first came to U of T from Venezuela to participate in DEEP Summer Academy, an experience that helped inspire her to study engineering. Throughout her undergraduate degree, she took advantage of many opportunities to develop her leadership potential, including chairing the 2016 Women in Science and Engineering (WISE) national conference. She also participated in iLead’s The Game, where she and her team worked to raise awareness of unconscious biases that can affect engineers in professional settings.

Monis Rodriguez did undergraduate research on human factors engineering with Professor Birsen Donmez (MIE). She completed her PEY internship with Healthcare Human Factors, where she developed tools to evaluate and ultimately improve the interface design for medical devices such as infusion pumps.

“Through my human factors background, I have developed a passion for user-centered design and process improvement,” she says. “I'm hoping to use this knowledge to help people have a better experience as they navigate the world.”

Shout out: “I would like to thank my family and friends for all their support and hugs. I’d also like to thank all members of the MIE Department, ILead Office and the Engineering Outreach Office for their guidance, opportunities, inspiration, and overall influence they have had on my professional and personal development.”

Bishnu Gautam (PhD Civil Engineering)The concrete doctor

Gautam studied with civil engineering professor Daman Panesar, looking for new ways to prevent damage to concrete structures. In particular, he focused on a process known as an alkali-silica reaction. “It is a chemical reaction that causes expansion and cracking in the concrete,” says Gautam. “Once it occurs, complete cure is almost impossible.”

Gautam built a system that could simulate the three-dimensional stresses on various concrete structures and investigated the damage caused by the alkali-silica reaction under these stresses. His research could help civil engineers understand the damage caused by alkali-silica reaction in the context of real structures, and take the appropriate actions before it’s too late.

Gautam, who came to U of T from Nepal, wants to use his degree to bridge the knowledge and technological gap between developed and developing nations. “I hope to promote precast and pre-stressed concrete in developing countries like mine, where such technologies are in their infancy,” he says.

Shout out: “I would like to thank Prof. Panesar for her support, encouragement and most importantly the confidence she put on me. I appreciate the support of my supervisory committee and exam committee members and I am very grateful for the opportunity to work with them.”

“I left my home in Winnipeg in search of the best education in the country, and I'm so glad that I did, because I found so much more,” says Mohaddes. “Talented people and great opportunities abound here.”

As an undergraduate, Mohaddes pursued research with mechanical engineering professor Nasser Ashgriz on managing heat in nuclear reactors, and mechanical engineering professor David Sinton on developing measurement techniques that could be used in the growing field of underground CO2 sequestration, which led to his first published scientific paper. As part of the winning team of the 2015-2016 MIE capstone design competition, Mohaddes designed a high-pressure, low flow rate syringe pump for the oil and gas industry that would be significantly less expensive than current models.

Mohaddes describes his experience at U of T as invigorating. “The people I met and the things I had the opportunity to do during my time at U of T give me inspiration to try to change the world in my own way,” he says. In the fall, he will begin graduate studies at Stanford University, studying combustion modelling with Professor Matthias Ihme.

Shout out: “I would like to thank Professors Ashgriz and Sinton, for the opportunities they gave me in terms of summer research and Capstone work, as well as their support of my entry into graduate school.”

Matthew Ooms (PhD Mechanical Engineering)Green goals

Ooms’ graduate research focused on microalgae, fast-growing organisms that take up CO2 from the atmosphere and can be processed into a variety of renewable fuel. Working with mechanical engineering professor David Sinton,Ooms combined engineering, optics, and biology to design new systems for efficiently growing and processing microalgae, with the goal of making this new form of biofuel more economically competitive. His work was supported by a Vanier Canada Graduate Scholarship.

For Ooms, one of the major advantages of studying at U of T was having unfettered access to state-of-the art fabrication and analysis facilities, not to mention the exceptional people who run them. “We could make just about anything we could imagine without walking more than four blocks,” he says. After graduation, Ooms plans to continue working in renewable energy. “I want to use the expertise I’ve developed to help Canada transition a low-carbon economy by developing alternative forms of energy generation and emissions reduction,” he says.

Shout out: “I would like to thank my supervisor Prof. David Sinton. His focus throughout my program has been on helping me achieve both my career and personal goals. He has been the biggest champion of my work and an endless source of positivity, encouragement, and insight.”

Gege Wen (BASc Mineral Engineering)Deep thinker

Wen completed her PEY internship at Husky Energy, where she first heard of deep well injection to dispose of wastewater. She soon learned that deep well injection has also been proposed as a means to store CO2 underground, reducing the impact of greenhouse gas emissions. However, there is still much that is not known about the long-term stability of the method.

When she returned to U of T, Wen worked with civil engineering professor Jennifer Drake to undertake a detailed analysis of the risks and opportunities for deep well injection and CO2 sequestration. Wen plans to continue this research next fall, when she begins her MASc at Stanford University, working with Professor Peter Kitanidis on an inter-disciplinary project that combines CO2 sequestration with enhanced oil recovery.

Shout out: “I want to thank Professor Jennifer Drake. She is a great mentor and her guidance through my research was immensely helpful to my future as a researcher.

“My goal as an engineer is to make a meaningful contribution to solving some of the many environmental challenges we face,” says Hovey. The aim of her work with chemical engineering professor Honghi Tran was to address the challenges around the disposal of pulp and paper mill biosludge, a waste material that is hard to deal with due to its high moisture content. Hovey studied the drying behaviour of biosludge in order to understand the underlying mechanisms and address key challenges.

Outside of her studies, Hovey helped establish a student section of the Pulp and Paper Technical Association of Canada, serving as its co-chair and treasurer, and volunteered her time with the Chemical Engineering Graduate Students Association. She attended numerous pulp and paper conferences and is preparing two scientific papers for publication. After graduation, she plans to work in environmental consulting or renewable power generation.

Shout out: “I would especially like to thank Professor Honghi Tran. It has been both a pleasure and an honour to work with him. His infectious curiosity, meticulous nature, and unwavering support helped to motivate and encourage me to always ask why and to think outside of the box.”

“UofT engineering is boundless with respect to learning opportunities, extracurricular activities, cultures and personalities,” says Sabatini. “No idea is unthinkable and no opportunity is unattainable.”

Sabatini did his PEY internship in Belgium with Agfa-Gevaert, a technology company where he worked on developing a protective outer layer for photovoltaic backsheets. “It was a fantastic experience for both personal and professional development,” he says.

Sabatini completed both the Bioengineering and Engineering Business minors. He put that training into practice in several leadership roles: he served three years as the MSE representative to the Engineering Society, three years as a head leader for F!rosh Week, and four with the MSE Club, eventually serving as its Chair. Next fall, he will begin his MASc in nanomaterials, studying with materials science and engineering professor Uwe Erb (MSE). His research will focus on nanocrystalline nickel-iron alloys that could be used to make airplane or automotive parts stronger, harder and more resistant to wear.

Shout out: “My sincerest gratitude to the MSE Department for their guidance and support over the course of my time at the University of Toronto. I would also like to extend thanks to the entirety of the Skule community for their unwavering dedication, inspiration, and spirit.”

Elliott Donaghue’s research aims to accomplish something that is currently impossible: to treat and ultimately reverse the effects of spinal cord injury. Working with chemical engineering and IBBME professor Molly Shoichet she and her team have developed a way to deliver molecules that promote healing directly to the site of the injury.

The technique involves mixing proteins and nanoparticles into a Jello-like substance called a hydrogel. After being injected into the body, both the hydrogels and nanoparticles dissolve naturally within weeks to months, leaving behind therapeutic proteins that promote the growth and regeneration of nerve cell “limbs” called axons, which could reach across the gap of the injury and re-establish communication along the spinal cord.

Elliott Donaghue currently works as an intern at CCRM, a non-profit that supports the commercialization of stem cell and biomaterials-based technologies. After graduation, she plans to continue the clinical translation of biomedical science and engineering research.

Shout out: “I would like to thank my supervisor and everyone in the Shoichet Lab for their guidance and support throughout my graduate studies.”

During his PhD, Kassiri worked with electrical and computer engineering professor Roman Genov on an implantable electronic device that can detect and prevent upcoming epileptic seizures. The device, which is less than a square inch in size, will be implanted under the skin and electrically stimulates the brain, a treatment that can prevent seizures or reduce their severity. Unlike current devices, which fire at regular intervals like a pacemaker, Kassiri’s device records and processes brainwaves using a sophisticated algorithm that is integrated into the device. This enables it to detect when stimulation is needed, reducing the chance of missing a seizure.

Kassiri has co-founded the company Braincom, Inc. to commercialize the device. This summer, he will take up a position Assistant Professor at York University. “As a professor, I hope to run a high-impact research lab that excels both in advancing the technology and training high-quality engineers,” he says. “As an entrepreneur, I hope to be able to complete the commercialization of our brain implant device, and provide a new treatment option to thousands of people around the world.”

Shout out: “I would like to thank Prof. Roman Genov for giving me the opportunity to work on such a great project, and for his insight, guidance, and support throughout my doctoral studies. I'd also like to thank my parents who have always supported me through thick and thin.”